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Mortality and histopathological effects in harbour-transplanted snails with different exposure histories

Artikel i vetenskaplig tidskrift
Författare M. A. Bighiu
B. Watermann
X. L. Guo
Bethanie Carney Almroth
A. K. Eriksson-Wiklund
Publicerad i Aquatic Toxicology
Volym 190
Sidor 11-20
ISSN 0166-445X
Publiceringsår 2017
Publicerad vid Institutionen för biologi och miljövetenskap
Sidor 11-20
Språk English
Länkar doi.org/10.1016/j.aquatox.2017.06.0...
Ämnesord Metals, Snails, Theodoxus fluviatilis, Caging, Histopathology, COI, theodoxus-fluviatilis, phenotypic plasticity, copper contamination, lymnaea-stagnalis, aquatic animals, pollution, tolerance, mussels, biomarkers, parasites, Marine & Freshwater Biology, Toxicology
Ämneskategorier Marin ekologi

Sammanfattning

Contaminants are important stressors in the aquatic environment and may exert selective pressures on organisms. We hypothesized that snails originating from a metal-contaminated habitat (B) would have increased tolerance to harbour contaminants (e.g. metals from antifouling paints), compared to snails originating from a relatively clean habitat (A). We assessed tolerance to metals in terms of survival and histopathological alterations after 2, 4 and 8 weeks of in situ exposure in three Baltic Sea boat harbours and three reference sites. We also hypothesized that any potential tolerance to contaminants would be associated with differences in genetic diversity between the two snail populations (evaluated as mitochondrial cytochrome c oxidase subunit I, COI). The results show that snails from population A survived to a higher extent compared to population B, possibly indicating either a lack of adaptation to metals in snails B or impaired health condition due to contaminant pre-exposure or a higher resilience of snails A. Moreover, the genetic diversity of COI was low within each population and did not differ between populations. In general, 83% of all the types of histopathological alterations (e.g. lysis and necrosis of gonads and digestive gland or granulocytoma and phagocytosis in the storage tissue, among others) had a higher probability of occurrence among harbour-exposed snails compared to reference exposed snails, regardless of snail population origin. The only significant difference in histological effects between the two populations was in the frequency of parasite infestations and shell fouling, both being larger for population A than B. Interestingly, the rate of parasite infestations was higher for males than females from population A, whereas no sexual dichotomy was observed for population B. Our results show that exposure to harbour contaminants causes both lethal and sublethal toxicity to snails, and the association between many of the toxic responses and metals substantiates that antifouling substances contribute to the observed effects, although there is a large proportion of variation in our data that remains unexplained.

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